libs/ui/Gralloc1On0Adapter.cpp - third_party/android/platform/frameworks/native - Git at Google

 /*
  * Copyright 2016 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #undef LOG_TAG
 #define LOG_TAG "Gralloc1On0Adapter"
 //#define LOG_NDEBUG 0

 #include <hardware/gralloc.h>

 #include <ui/Gralloc1On0Adapter.h>

 #include <utils/Log.h>

 #include <inttypes.h>

 template <typename PFN, typename T>
 static gralloc1_function_pointer_t asFP(T function)
 {
     static_assert(std::is_same<PFN, T>::value, "Incompatible function pointer");
     return reinterpret_cast<gralloc1_function_pointer_t>(function);
 }

 namespace android {

 Gralloc1On0Adapter::Gralloc1On0Adapter(const hw_module_t* module)
   : mModule(reinterpret_cast<const gralloc_module_t*>(module)),
     mMinorVersion(mModule->common.module_api_version & 0xFF),
     mDevice(nullptr)
 {
     ALOGV("Constructing");
     getCapabilities = getCapabilitiesHook;
     getFunction = getFunctionHook;
     int error = ::gralloc_open(&(mModule->common), &mDevice);
     if (error) {
         ALOGE("Failed to open gralloc0 module: %d", error);
     }
     ALOGV("Opened gralloc0 device %p", mDevice);
 }

 Gralloc1On0Adapter::~Gralloc1On0Adapter()
 {
     ALOGV("Destructing");
     if (mDevice) {
         ALOGV("Closing gralloc0 device %p", mDevice);
         ::gralloc_close(mDevice);
     }
 }

 void Gralloc1On0Adapter::doGetCapabilities(uint32_t* outCount,
         int32_t* outCapabilities)
 {
     if (outCapabilities == nullptr) {
         *outCount = 1;
         return;
     }
     if (*outCount >= 1) {
         *outCapabilities = GRALLOC1_CAPABILITY_ON_ADAPTER;
         *outCount = 1;
     }
 }

 gralloc1_function_pointer_t Gralloc1On0Adapter::doGetFunction(
         int32_t intDescriptor)
 {
     constexpr auto lastDescriptor =
             static_cast<int32_t>(GRALLOC1_LAST_ADAPTER_FUNCTION);
     if (intDescriptor < 0 || intDescriptor > lastDescriptor) {
         ALOGE("Invalid function descriptor");
         return nullptr;
     }

     auto descriptor =
             static_cast<gralloc1_function_descriptor_t>(intDescriptor);
     switch (descriptor) {
         case GRALLOC1_FUNCTION_DUMP:
             return asFP<GRALLOC1_PFN_DUMP>(dumpHook);
         case GRALLOC1_FUNCTION_CREATE_DESCRIPTOR:
             return asFP<GRALLOC1_PFN_CREATE_DESCRIPTOR>(createDescriptorHook);
         case GRALLOC1_FUNCTION_DESTROY_DESCRIPTOR:
             return asFP<GRALLOC1_PFN_DESTROY_DESCRIPTOR>(destroyDescriptorHook);
         case GRALLOC1_FUNCTION_SET_CONSUMER_USAGE:
             return asFP<GRALLOC1_PFN_SET_CONSUMER_USAGE>(setConsumerUsageHook);
         case GRALLOC1_FUNCTION_SET_DIMENSIONS:
             return asFP<GRALLOC1_PFN_SET_DIMENSIONS>(setDimensionsHook);
         case GRALLOC1_FUNCTION_SET_FORMAT:
             return asFP<GRALLOC1_PFN_SET_FORMAT>(setFormatHook);
         case GRALLOC1_FUNCTION_SET_PRODUCER_USAGE:
             return asFP<GRALLOC1_PFN_SET_PRODUCER_USAGE>(setProducerUsageHook);
         case GRALLOC1_FUNCTION_GET_BACKING_STORE:
             return asFP<GRALLOC1_PFN_GET_BACKING_STORE>(
                     bufferHook<decltype(&Buffer::getBackingStore),
                     &Buffer::getBackingStore, gralloc1_backing_store_t*>);
         case GRALLOC1_FUNCTION_GET_CONSUMER_USAGE:
             return asFP<GRALLOC1_PFN_GET_CONSUMER_USAGE>(getConsumerUsageHook);
         case GRALLOC1_FUNCTION_GET_DIMENSIONS:
             return asFP<GRALLOC1_PFN_GET_DIMENSIONS>(
                     bufferHook<decltype(&Buffer::getDimensions),
                     &Buffer::getDimensions, uint32_t*, uint32_t*>);
         case GRALLOC1_FUNCTION_GET_FORMAT:
             return asFP<GRALLOC1_PFN_GET_FORMAT>(
                     bufferHook<decltype(&Buffer::getFormat),
                     &Buffer::getFormat, int32_t*>);
         case GRALLOC1_FUNCTION_GET_PRODUCER_USAGE:
             return asFP<GRALLOC1_PFN_GET_PRODUCER_USAGE>(getProducerUsageHook);
         case GRALLOC1_FUNCTION_GET_STRIDE:
             return asFP<GRALLOC1_PFN_GET_STRIDE>(
                     bufferHook<decltype(&Buffer::getStride),
                     &Buffer::getStride, uint32_t*>);
         case GRALLOC1_FUNCTION_ALLOCATE:
             // Not provided, since we'll use ALLOCATE_WITH_ID
             return nullptr;
         case GRALLOC1_FUNCTION_ALLOCATE_WITH_ID:
             if (mDevice != nullptr) {
                 return asFP<GRALLOC1_PFN_ALLOCATE_WITH_ID>(allocateWithIdHook);
             } else {
                 return nullptr;
             }
         case GRALLOC1_FUNCTION_RETAIN:
             return asFP<GRALLOC1_PFN_RETAIN>(
                     managementHook<&Gralloc1On0Adapter::retain>);
         case GRALLOC1_FUNCTION_RELEASE:
             return asFP<GRALLOC1_PFN_RELEASE>(
                     managementHook<&Gralloc1On0Adapter::release>);
         case GRALLOC1_FUNCTION_RETAIN_GRAPHIC_BUFFER:
             return asFP<GRALLOC1_PFN_RETAIN_GRAPHIC_BUFFER>(
                     retainGraphicBufferHook);
         case GRALLOC1_FUNCTION_GET_NUM_FLEX_PLANES:
             return asFP<GRALLOC1_PFN_GET_NUM_FLEX_PLANES>(
                     bufferHook<decltype(&Buffer::getNumFlexPlanes),
                     &Buffer::getNumFlexPlanes, uint32_t*>);
         case GRALLOC1_FUNCTION_LOCK:
             return asFP<GRALLOC1_PFN_LOCK>(
                     lockHook<void*, &Gralloc1On0Adapter::lock>);
         case GRALLOC1_FUNCTION_LOCK_FLEX:
             return asFP<GRALLOC1_PFN_LOCK_FLEX>(
                     lockHook<struct android_flex_layout,
                     &Gralloc1On0Adapter::lockFlex>);
         case GRALLOC1_FUNCTION_LOCK_YCBCR:
             return asFP<GRALLOC1_PFN_LOCK_YCBCR>(
                     lockHook<struct android_ycbcr,
                     &Gralloc1On0Adapter::lockYCbCr>);
         case GRALLOC1_FUNCTION_UNLOCK:
             return asFP<GRALLOC1_PFN_UNLOCK>(unlockHook);
         case GRALLOC1_FUNCTION_INVALID:
             ALOGE("Invalid function descriptor");
             return nullptr;
     }

     ALOGE("Unknown function descriptor: %d", intDescriptor);
     return nullptr;
 }

 void Gralloc1On0Adapter::dump(uint32_t* outSize, char* outBuffer)
 {
     ALOGV("dump(%u (%p), %p", outSize ? *outSize : 0, outSize, outBuffer);

     if (!mDevice->dump) {
         // dump is optional on gralloc0 implementations
         *outSize = 0;
         return;
     }

     if (!outBuffer) {
         constexpr int32_t BUFFER_LENGTH = 4096;
         char buffer[BUFFER_LENGTH] = {};
         mDevice->dump(mDevice, buffer, BUFFER_LENGTH);
         buffer[BUFFER_LENGTH - 1] = 0; // Ensure the buffer is null-terminated
         size_t actualLength = std::strlen(buffer);
         mCachedDump.resize(actualLength);
         std::copy_n(buffer, actualLength, mCachedDump.begin());
         *outSize = static_cast<uint32_t>(actualLength);
     } else {
         *outSize = std::min(*outSize,
                 static_cast<uint32_t>(mCachedDump.size()));
         outBuffer = std::copy_n(mCachedDump.cbegin(), *outSize, outBuffer);
     }
 }

 gralloc1_error_t Gralloc1On0Adapter::createDescriptor(
         gralloc1_buffer_descriptor_t* outDescriptor)
 {
     auto descriptorId = sNextBufferDescriptorId++;
     std::lock_guard<std::mutex> lock(mDescriptorMutex);
     mDescriptors.emplace(descriptorId,
             std::make_shared<Descriptor>(this, descriptorId));

     ALOGV("Created descriptor %" PRIu64, descriptorId);

     *outDescriptor = descriptorId;
     return GRALLOC1_ERROR_NONE;
 }

 gralloc1_error_t Gralloc1On0Adapter::destroyDescriptor(
         gralloc1_buffer_descriptor_t descriptor)
 {
     ALOGV("Destroying descriptor %" PRIu64, descriptor);

     std::lock_guard<std::mutex> lock(mDescriptorMutex);
     if (mDescriptors.count(descriptor) == 0) {
         return GRALLOC1_ERROR_BAD_DESCRIPTOR;
     }

     mDescriptors.erase(descriptor);
     return GRALLOC1_ERROR_NONE;
 }

 Gralloc1On0Adapter::Buffer::Buffer(buffer_handle_t handle,
         gralloc1_backing_store_t store, const Descriptor& descriptor,
         uint32_t stride, bool wasAllocated)
   : mHandle(handle),
     mReferenceCount(1),
     mStore(store),
     mDescriptor(descriptor),
     mStride(stride),
     mWasAllocated(wasAllocated) {}

 gralloc1_error_t Gralloc1On0Adapter::allocate(
         const std::shared_ptr<Descriptor>& descriptor,
         gralloc1_backing_store_t store,
         buffer_handle_t* outBufferHandle)
 {
     ALOGV("allocate(%" PRIu64 ", %#" PRIx64 ")", descriptor->id, store);

     // If this function is being called, it's because we handed out its function
     // pointer, which only occurs when mDevice has been loaded successfully and
     // we are permitted to allocate

     int usage = static_cast<int>(descriptor->producerUsage) |
             static_cast<int>(descriptor->consumerUsage);
     buffer_handle_t handle = nullptr;
     int stride = 0;
     ALOGV("Calling alloc(%p, %u, %u, %i, %u)", mDevice, descriptor->width,
             descriptor->height, descriptor->format, usage);
     auto error = mDevice->alloc(mDevice,
             static_cast<int>(descriptor->width),
             static_cast<int>(descriptor->height), descriptor->format,
             usage, &handle, &stride);
     if (error != 0) {
         ALOGE("gralloc0 allocation failed: %d (%s)", error,
                 strerror(-error));
         return GRALLOC1_ERROR_NO_RESOURCES;
     }

     *outBufferHandle = handle;
     auto buffer = std::make_shared<Buffer>(handle, store, *descriptor, stride,
             true);

     std::lock_guard<std::mutex> lock(mBufferMutex);
     mBuffers.emplace(handle, std::move(buffer));

     return GRALLOC1_ERROR_NONE;
 }

 gralloc1_error_t Gralloc1On0Adapter::allocateWithIdHook(
         gralloc1_device_t* device, gralloc1_buffer_descriptor_t descriptorId,
         gralloc1_backing_store_t store, buffer_handle_t* outBuffer)
 {
     auto adapter = getAdapter(device);

     auto descriptor = adapter->getDescriptor(descriptorId);
     if (!descriptor) {
         return GRALLOC1_ERROR_BAD_DESCRIPTOR;
     }

     buffer_handle_t bufferHandle = nullptr;
     auto error = adapter->allocate(descriptor, store, &bufferHandle);
     if (error != GRALLOC1_ERROR_NONE) {
         return error;
     }

     *outBuffer = bufferHandle;
     return error;
 }

 gralloc1_error_t Gralloc1On0Adapter::retain(
         const std::shared_ptr<Buffer>& buffer)
 {
     buffer->retain();
     return GRALLOC1_ERROR_NONE;
 }

 gralloc1_error_t Gralloc1On0Adapter::release(
         const std::shared_ptr<Buffer>& buffer)
 {
     if (!buffer->release()) {
         return GRALLOC1_ERROR_NONE;
     }

     buffer_handle_t handle = buffer->getHandle();
     if (buffer->wasAllocated()) {
         ALOGV("Calling free(%p)", handle);
         int result = mDevice->free(mDevice, handle);
         if (result != 0) {
             ALOGE("gralloc0 free failed: %d", result);
         }
     } else {
         ALOGV("Calling unregisterBuffer(%p)", handle);
         int result = mModule->unregisterBuffer(mModule, handle);
         if (result != 0) {
             ALOGE("gralloc0 unregister failed: %d", result);
         }
     }

     std::lock_guard<std::mutex> lock(mBufferMutex);
     mBuffers.erase(handle);
     return GRALLOC1_ERROR_NONE;
 }

 gralloc1_error_t Gralloc1On0Adapter::retain(
         const android::GraphicBuffer* graphicBuffer)
 {
     ALOGV("retainGraphicBuffer(%p, %#" PRIx64 ")",
             graphicBuffer->getNativeBuffer()->handle, graphicBuffer->getId());

     buffer_handle_t handle = graphicBuffer->getNativeBuffer()->handle;
     std::lock_guard<std::mutex> lock(mBufferMutex);
     if (mBuffers.count(handle) != 0) {
         mBuffers[handle]->retain();
         return GRALLOC1_ERROR_NONE;
     }

     ALOGV("Calling registerBuffer(%p)", handle);
     int result = mModule->registerBuffer(mModule, handle);
     if (result != 0) {
         ALOGE("gralloc0 register failed: %d", result);
         return GRALLOC1_ERROR_NO_RESOURCES;
     }

     Descriptor descriptor{this, sNextBufferDescriptorId++};
     descriptor.setDimensions(graphicBuffer->getWidth(),
             graphicBuffer->getHeight());
     descriptor.setFormat(graphicBuffer->getPixelFormat());
     descriptor.setProducerUsage(
             static_cast<gralloc1_producer_usage_t>(graphicBuffer->getUsage()));
     descriptor.setConsumerUsage(
             static_cast<gralloc1_consumer_usage_t>(graphicBuffer->getUsage()));
     auto buffer = std::make_shared<Buffer>(handle,
             static_cast<gralloc1_backing_store_t>(graphicBuffer->getId()),
             descriptor, graphicBuffer->getStride(), false);
     mBuffers.emplace(handle, std::move(buffer));
     return GRALLOC1_ERROR_NONE;
 }

 gralloc1_error_t Gralloc1On0Adapter::lock(
         const std::shared_ptr<Buffer>& buffer,
         gralloc1_producer_usage_t producerUsage,
         gralloc1_consumer_usage_t consumerUsage,
         const gralloc1_rect_t& accessRegion, void** outData,
         const sp<Fence>& acquireFence)
 {
     if (mMinorVersion >= 3) {
         int result = mModule->lockAsync(mModule, buffer->getHandle(),
                 static_cast<int32_t>(producerUsage | consumerUsage),
                 accessRegion.left, accessRegion.top, accessRegion.width,
                 accessRegion.height, outData, acquireFence->dup());
         if (result != 0) {
             return GRALLOC1_ERROR_UNSUPPORTED;
         }
     } else {
         acquireFence->waitForever("Gralloc1On0Adapter::lock");
         int result = mModule->lock(mModule, buffer->getHandle(),
                 static_cast<int32_t>(producerUsage | consumerUsage),
                 accessRegion.left, accessRegion.top, accessRegion.width,
                 accessRegion.height, outData);
         ALOGV("gralloc0 lock returned %d", result);
         if (result != 0) {
             return GRALLOC1_ERROR_UNSUPPORTED;
         }
     }
     return GRALLOC1_ERROR_NONE;
 }

 gralloc1_error_t Gralloc1On0Adapter::lockFlex(
         const std::shared_ptr<Buffer>& /*buffer*/,
         gralloc1_producer_usage_t /*producerUsage*/,
         gralloc1_consumer_usage_t /*consumerUsage*/,
         const gralloc1_rect_t& /*accessRegion*/,
         struct android_flex_layout* /*outData*/,
         const sp<Fence>& /*acquireFence*/)
 {
     // TODO
     return GRALLOC1_ERROR_UNSUPPORTED;
 }

 gralloc1_error_t Gralloc1On0Adapter::lockYCbCr(
         const std::shared_ptr<Buffer>& buffer,
         gralloc1_producer_usage_t producerUsage,
         gralloc1_consumer_usage_t consumerUsage,
         const gralloc1_rect_t& accessRegion, struct android_ycbcr* outData,
         const sp<Fence>& acquireFence)
 {
     if (mMinorVersion >= 3 && mModule->lockAsync_ycbcr) {
         int result = mModule->lockAsync_ycbcr(mModule, buffer->getHandle(),
                 static_cast<int>(producerUsage | consumerUsage),
                 accessRegion.left, accessRegion.top, accessRegion.width,
                 accessRegion.height, outData, acquireFence->dup());
         if (result != 0) {
             return GRALLOC1_ERROR_UNSUPPORTED;
         }
     } else if (mModule->lock_ycbcr) {
         acquireFence->waitForever("Gralloc1On0Adapter::lockYCbCr");
         int result = mModule->lock_ycbcr(mModule, buffer->getHandle(),
                 static_cast<int>(producerUsage | consumerUsage),
                 accessRegion.left, accessRegion.top, accessRegion.width,
                 accessRegion.height, outData);
         ALOGV("gralloc0 lockYCbCr returned %d", result);
         if (result != 0) {
             return GRALLOC1_ERROR_UNSUPPORTED;
         }
     } else {
         return GRALLOC1_ERROR_UNSUPPORTED;
     }

     return GRALLOC1_ERROR_NONE;
 }

 gralloc1_error_t Gralloc1On0Adapter::unlock(
         const std::shared_ptr<Buffer>& buffer,
         sp<Fence>* outReleaseFence)
 {
     if (mMinorVersion >= 3) {
         int fenceFd = -1;
         int result = mModule->unlockAsync(mModule, buffer->getHandle(),
                 &fenceFd);
         if (result != 0) {
             close(fenceFd);
             ALOGE("gralloc0 unlockAsync failed: %d", result);
         } else {
             *outReleaseFence = new Fence(fenceFd);
         }
     } else {
         int result = mModule->unlock(mModule, buffer->getHandle());
         if (result != 0) {
             ALOGE("gralloc0 unlock failed: %d", result);
         }
     }
     return GRALLOC1_ERROR_NONE;
 }

 std::shared_ptr<Gralloc1On0Adapter::Descriptor>
 Gralloc1On0Adapter::getDescriptor(gralloc1_buffer_descriptor_t descriptorId)
 {
     std::lock_guard<std::mutex> lock(mDescriptorMutex);
     if (mDescriptors.count(descriptorId) == 0) {
         return nullptr;
     }

     return mDescriptors[descriptorId];
 }

 std::shared_ptr<Gralloc1On0Adapter::Buffer> Gralloc1On0Adapter::getBuffer(
         buffer_handle_t bufferHandle)
 {
     std::lock_guard<std::mutex> lock(mBufferMutex);
     if (mBuffers.count(bufferHandle) == 0) {
         return nullptr;
     }

     return mBuffers[bufferHandle];
 }

 std::atomic<gralloc1_buffer_descriptor_t>
         Gralloc1On0Adapter::sNextBufferDescriptorId(1);

 } // namespace android
	/*
	* Copyright 2016 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#undef LOG_TAG
	#define LOG_TAG "Gralloc1On0Adapter"
	//#define LOG_NDEBUG 0

	#include <hardware/gralloc.h>

	#include <ui/Gralloc1On0Adapter.h>

	#include <utils/Log.h>

	#include <inttypes.h>

	template <typename PFN, typename T>
	static gralloc1_function_pointer_t asFP(T function)
	{
	static_assert(std::is_same<PFN, T>::value, "Incompatible function pointer");
	return reinterpret_cast<gralloc1_function_pointer_t>(function);
	}

	namespace android {

	Gralloc1On0Adapter::Gralloc1On0Adapter(const hw_module_t* module)
	: mModule(reinterpret_cast<const gralloc_module_t*>(module)),
	mMinorVersion(mModule->common.module_api_version & 0xFF),
	mDevice(nullptr)
	{
	ALOGV("Constructing");
	getCapabilities = getCapabilitiesHook;
	getFunction = getFunctionHook;
	int error = ::gralloc_open(&(mModule->common), &mDevice);
	if (error) {
	ALOGE("Failed to open gralloc0 module: %d", error);
	}
	ALOGV("Opened gralloc0 device %p", mDevice);
	}

	Gralloc1On0Adapter::~Gralloc1On0Adapter()
	{
	ALOGV("Destructing");
	if (mDevice) {
	ALOGV("Closing gralloc0 device %p", mDevice);
	::gralloc_close(mDevice);
	}
	}

	void Gralloc1On0Adapter::doGetCapabilities(uint32_t* outCount,
	int32_t* outCapabilities)
	{
	if (outCapabilities == nullptr) {
	*outCount = 1;
	return;
	}
	if (*outCount >= 1) {
	*outCapabilities = GRALLOC1_CAPABILITY_ON_ADAPTER;
	*outCount = 1;
	}
	}

	gralloc1_function_pointer_t Gralloc1On0Adapter::doGetFunction(
	int32_t intDescriptor)
	{
	constexpr auto lastDescriptor =
	static_cast<int32_t>(GRALLOC1_LAST_ADAPTER_FUNCTION);
	if (intDescriptor < 0 \|\| intDescriptor > lastDescriptor) {
	ALOGE("Invalid function descriptor");
	return nullptr;
	}

	auto descriptor =
	static_cast<gralloc1_function_descriptor_t>(intDescriptor);
	switch (descriptor) {
	case GRALLOC1_FUNCTION_DUMP:
	return asFP<GRALLOC1_PFN_DUMP>(dumpHook);
	case GRALLOC1_FUNCTION_CREATE_DESCRIPTOR:
	return asFP<GRALLOC1_PFN_CREATE_DESCRIPTOR>(createDescriptorHook);
	case GRALLOC1_FUNCTION_DESTROY_DESCRIPTOR:
	return asFP<GRALLOC1_PFN_DESTROY_DESCRIPTOR>(destroyDescriptorHook);
	case GRALLOC1_FUNCTION_SET_CONSUMER_USAGE:
	return asFP<GRALLOC1_PFN_SET_CONSUMER_USAGE>(setConsumerUsageHook);
	case GRALLOC1_FUNCTION_SET_DIMENSIONS:
	return asFP<GRALLOC1_PFN_SET_DIMENSIONS>(setDimensionsHook);
	case GRALLOC1_FUNCTION_SET_FORMAT:
	return asFP<GRALLOC1_PFN_SET_FORMAT>(setFormatHook);
	case GRALLOC1_FUNCTION_SET_PRODUCER_USAGE:
	return asFP<GRALLOC1_PFN_SET_PRODUCER_USAGE>(setProducerUsageHook);
	case GRALLOC1_FUNCTION_GET_BACKING_STORE:
	return asFP<GRALLOC1_PFN_GET_BACKING_STORE>(
	bufferHook<decltype(&Buffer::getBackingStore),
	&Buffer::getBackingStore, gralloc1_backing_store_t*>);
	case GRALLOC1_FUNCTION_GET_CONSUMER_USAGE:
	return asFP<GRALLOC1_PFN_GET_CONSUMER_USAGE>(getConsumerUsageHook);
	case GRALLOC1_FUNCTION_GET_DIMENSIONS:
	return asFP<GRALLOC1_PFN_GET_DIMENSIONS>(
	bufferHook<decltype(&Buffer::getDimensions),
	&Buffer::getDimensions, uint32_t, uint32_t>);
	case GRALLOC1_FUNCTION_GET_FORMAT:
	return asFP<GRALLOC1_PFN_GET_FORMAT>(
	bufferHook<decltype(&Buffer::getFormat),
	&Buffer::getFormat, int32_t*>);
	case GRALLOC1_FUNCTION_GET_PRODUCER_USAGE:
	return asFP<GRALLOC1_PFN_GET_PRODUCER_USAGE>(getProducerUsageHook);
	case GRALLOC1_FUNCTION_GET_STRIDE:
	return asFP<GRALLOC1_PFN_GET_STRIDE>(
	bufferHook<decltype(&Buffer::getStride),
	&Buffer::getStride, uint32_t*>);
	case GRALLOC1_FUNCTION_ALLOCATE:
	// Not provided, since we'll use ALLOCATE_WITH_ID
	return nullptr;
	case GRALLOC1_FUNCTION_ALLOCATE_WITH_ID:
	if (mDevice != nullptr) {
	return asFP<GRALLOC1_PFN_ALLOCATE_WITH_ID>(allocateWithIdHook);
	} else {
	return nullptr;
	}
	case GRALLOC1_FUNCTION_RETAIN:
	return asFP<GRALLOC1_PFN_RETAIN>(
	managementHook<&Gralloc1On0Adapter::retain>);
	case GRALLOC1_FUNCTION_RELEASE:
	return asFP<GRALLOC1_PFN_RELEASE>(
	managementHook<&Gralloc1On0Adapter::release>);
	case GRALLOC1_FUNCTION_RETAIN_GRAPHIC_BUFFER:
	return asFP<GRALLOC1_PFN_RETAIN_GRAPHIC_BUFFER>(
	retainGraphicBufferHook);
	case GRALLOC1_FUNCTION_GET_NUM_FLEX_PLANES:
	return asFP<GRALLOC1_PFN_GET_NUM_FLEX_PLANES>(
	bufferHook<decltype(&Buffer::getNumFlexPlanes),
	&Buffer::getNumFlexPlanes, uint32_t*>);
	case GRALLOC1_FUNCTION_LOCK:
	return asFP<GRALLOC1_PFN_LOCK>(
	lockHook<void*, &Gralloc1On0Adapter::lock>);
	case GRALLOC1_FUNCTION_LOCK_FLEX:
	return asFP<GRALLOC1_PFN_LOCK_FLEX>(
	lockHook<struct android_flex_layout,
	&Gralloc1On0Adapter::lockFlex>);
	case GRALLOC1_FUNCTION_LOCK_YCBCR:
	return asFP<GRALLOC1_PFN_LOCK_YCBCR>(
	lockHook<struct android_ycbcr,
	&Gralloc1On0Adapter::lockYCbCr>);
	case GRALLOC1_FUNCTION_UNLOCK:
	return asFP<GRALLOC1_PFN_UNLOCK>(unlockHook);
	case GRALLOC1_FUNCTION_INVALID:
	ALOGE("Invalid function descriptor");
	return nullptr;
	}

	ALOGE("Unknown function descriptor: %d", intDescriptor);
	return nullptr;
	}

	void Gralloc1On0Adapter::dump(uint32_t* outSize, char* outBuffer)
	{
	ALOGV("dump(%u (%p), %p", outSize ? *outSize : 0, outSize, outBuffer);

	if (!mDevice->dump) {
	// dump is optional on gralloc0 implementations
	*outSize = 0;
	return;
	}

	if (!outBuffer) {
	constexpr int32_t BUFFER_LENGTH = 4096;
	char buffer[BUFFER_LENGTH] = {};
	mDevice->dump(mDevice, buffer, BUFFER_LENGTH);
	buffer[BUFFER_LENGTH - 1] = 0; // Ensure the buffer is null-terminated
	size_t actualLength = std::strlen(buffer);
	mCachedDump.resize(actualLength);
	std::copy_n(buffer, actualLength, mCachedDump.begin());
	*outSize = static_cast<uint32_t>(actualLength);
	} else {
	outSize = std::min(outSize,
	static_cast<uint32_t>(mCachedDump.size()));
	outBuffer = std::copy_n(mCachedDump.cbegin(), *outSize, outBuffer);
	}
	}

	gralloc1_error_t Gralloc1On0Adapter::createDescriptor(
	gralloc1_buffer_descriptor_t* outDescriptor)
	{
	auto descriptorId = sNextBufferDescriptorId++;
	std::lock_guard<std::mutex> lock(mDescriptorMutex);
	mDescriptors.emplace(descriptorId,
	std::make_shared<Descriptor>(this, descriptorId));

	ALOGV("Created descriptor %" PRIu64, descriptorId);

	*outDescriptor = descriptorId;
	return GRALLOC1_ERROR_NONE;
	}

	gralloc1_error_t Gralloc1On0Adapter::destroyDescriptor(
	gralloc1_buffer_descriptor_t descriptor)
	{
	ALOGV("Destroying descriptor %" PRIu64, descriptor);

	std::lock_guard<std::mutex> lock(mDescriptorMutex);
	if (mDescriptors.count(descriptor) == 0) {
	return GRALLOC1_ERROR_BAD_DESCRIPTOR;
	}

	mDescriptors.erase(descriptor);
	return GRALLOC1_ERROR_NONE;
	}

	Gralloc1On0Adapter::Buffer::Buffer(buffer_handle_t handle,
	gralloc1_backing_store_t store, const Descriptor& descriptor,
	uint32_t stride, bool wasAllocated)
	: mHandle(handle),
	mReferenceCount(1),
	mStore(store),
	mDescriptor(descriptor),
	mStride(stride),
	mWasAllocated(wasAllocated) {}

	gralloc1_error_t Gralloc1On0Adapter::allocate(
	const std::shared_ptr<Descriptor>& descriptor,
	gralloc1_backing_store_t store,
	buffer_handle_t* outBufferHandle)
	{
	ALOGV("allocate(%" PRIu64 ", %#" PRIx64 ")", descriptor->id, store);

	// If this function is being called, it's because we handed out its function
	// pointer, which only occurs when mDevice has been loaded successfully and
	// we are permitted to allocate

	int usage = static_cast<int>(descriptor->producerUsage) \|
	static_cast<int>(descriptor->consumerUsage);
	buffer_handle_t handle = nullptr;
	int stride = 0;
	ALOGV("Calling alloc(%p, %u, %u, %i, %u)", mDevice, descriptor->width,
	descriptor->height, descriptor->format, usage);
	auto error = mDevice->alloc(mDevice,
	static_cast<int>(descriptor->width),
	static_cast<int>(descriptor->height), descriptor->format,
	usage, &handle, &stride);
	if (error != 0) {
	ALOGE("gralloc0 allocation failed: %d (%s)", error,
	strerror(-error));
	return GRALLOC1_ERROR_NO_RESOURCES;
	}

	*outBufferHandle = handle;
	auto buffer = std::make_shared<Buffer>(handle, store, *descriptor, stride,
	true);

	std::lock_guard<std::mutex> lock(mBufferMutex);
	mBuffers.emplace(handle, std::move(buffer));

	return GRALLOC1_ERROR_NONE;
	}

	gralloc1_error_t Gralloc1On0Adapter::allocateWithIdHook(
	gralloc1_device_t* device, gralloc1_buffer_descriptor_t descriptorId,
	gralloc1_backing_store_t store, buffer_handle_t* outBuffer)
	{
	auto adapter = getAdapter(device);

	auto descriptor = adapter->getDescriptor(descriptorId);
	if (!descriptor) {
	return GRALLOC1_ERROR_BAD_DESCRIPTOR;
	}

	buffer_handle_t bufferHandle = nullptr;
	auto error = adapter->allocate(descriptor, store, &bufferHandle);
	if (error != GRALLOC1_ERROR_NONE) {
	return error;
	}

	*outBuffer = bufferHandle;
	return error;
	}

	gralloc1_error_t Gralloc1On0Adapter::retain(
	const std::shared_ptr<Buffer>& buffer)
	{
	buffer->retain();
	return GRALLOC1_ERROR_NONE;
	}

	gralloc1_error_t Gralloc1On0Adapter::release(
	const std::shared_ptr<Buffer>& buffer)
	{
	if (!buffer->release()) {
	return GRALLOC1_ERROR_NONE;
	}

	buffer_handle_t handle = buffer->getHandle();
	if (buffer->wasAllocated()) {
	ALOGV("Calling free(%p)", handle);
	int result = mDevice->free(mDevice, handle);
	if (result != 0) {
	ALOGE("gralloc0 free failed: %d", result);
	}
	} else {
	ALOGV("Calling unregisterBuffer(%p)", handle);
	int result = mModule->unregisterBuffer(mModule, handle);
	if (result != 0) {
	ALOGE("gralloc0 unregister failed: %d", result);
	}
	}

	std::lock_guard<std::mutex> lock(mBufferMutex);
	mBuffers.erase(handle);
	return GRALLOC1_ERROR_NONE;
	}

	gralloc1_error_t Gralloc1On0Adapter::retain(
	const android::GraphicBuffer* graphicBuffer)
	{
	ALOGV("retainGraphicBuffer(%p, %#" PRIx64 ")",
	graphicBuffer->getNativeBuffer()->handle, graphicBuffer->getId());

	buffer_handle_t handle = graphicBuffer->getNativeBuffer()->handle;
	std::lock_guard<std::mutex> lock(mBufferMutex);
	if (mBuffers.count(handle) != 0) {
	mBuffers[handle]->retain();
	return GRALLOC1_ERROR_NONE;
	}

	ALOGV("Calling registerBuffer(%p)", handle);
	int result = mModule->registerBuffer(mModule, handle);
	if (result != 0) {
	ALOGE("gralloc0 register failed: %d", result);
	return GRALLOC1_ERROR_NO_RESOURCES;
	}

	Descriptor descriptor{this, sNextBufferDescriptorId++};
	descriptor.setDimensions(graphicBuffer->getWidth(),
	graphicBuffer->getHeight());
	descriptor.setFormat(graphicBuffer->getPixelFormat());
	descriptor.setProducerUsage(
	static_cast<gralloc1_producer_usage_t>(graphicBuffer->getUsage()));
	descriptor.setConsumerUsage(
	static_cast<gralloc1_consumer_usage_t>(graphicBuffer->getUsage()));
	auto buffer = std::make_shared<Buffer>(handle,
	static_cast<gralloc1_backing_store_t>(graphicBuffer->getId()),
	descriptor, graphicBuffer->getStride(), false);
	mBuffers.emplace(handle, std::move(buffer));
	return GRALLOC1_ERROR_NONE;
	}

	gralloc1_error_t Gralloc1On0Adapter::lock(
	const std::shared_ptr<Buffer>& buffer,
	gralloc1_producer_usage_t producerUsage,
	gralloc1_consumer_usage_t consumerUsage,
	const gralloc1_rect_t& accessRegion, void** outData,
	const sp<Fence>& acquireFence)
	{
	if (mMinorVersion >= 3) {
	int result = mModule->lockAsync(mModule, buffer->getHandle(),
	static_cast<int32_t>(producerUsage \| consumerUsage),
	accessRegion.left, accessRegion.top, accessRegion.width,
	accessRegion.height, outData, acquireFence->dup());
	if (result != 0) {
	return GRALLOC1_ERROR_UNSUPPORTED;
	}
	} else {
	acquireFence->waitForever("Gralloc1On0Adapter::lock");
	int result = mModule->lock(mModule, buffer->getHandle(),
	static_cast<int32_t>(producerUsage \| consumerUsage),
	accessRegion.left, accessRegion.top, accessRegion.width,
	accessRegion.height, outData);
	ALOGV("gralloc0 lock returned %d", result);
	if (result != 0) {
	return GRALLOC1_ERROR_UNSUPPORTED;
	}
	}
	return GRALLOC1_ERROR_NONE;
	}

	gralloc1_error_t Gralloc1On0Adapter::lockFlex(
	const std::shared_ptr<Buffer>& /buffer/,
	gralloc1_producer_usage_t /producerUsage/,
	gralloc1_consumer_usage_t /consumerUsage/,
	const gralloc1_rect_t& /accessRegion/,
	struct android_flex_layout* /outData/,
	const sp<Fence>& /acquireFence/)
	{
	// TODO
	return GRALLOC1_ERROR_UNSUPPORTED;
	}

	gralloc1_error_t Gralloc1On0Adapter::lockYCbCr(
	const std::shared_ptr<Buffer>& buffer,
	gralloc1_producer_usage_t producerUsage,
	gralloc1_consumer_usage_t consumerUsage,
	const gralloc1_rect_t& accessRegion, struct android_ycbcr* outData,
	const sp<Fence>& acquireFence)
	{
	if (mMinorVersion >= 3 && mModule->lockAsync_ycbcr) {
	int result = mModule->lockAsync_ycbcr(mModule, buffer->getHandle(),
	static_cast<int>(producerUsage \| consumerUsage),
	accessRegion.left, accessRegion.top, accessRegion.width,
	accessRegion.height, outData, acquireFence->dup());
	if (result != 0) {
	return GRALLOC1_ERROR_UNSUPPORTED;
	}
	} else if (mModule->lock_ycbcr) {
	acquireFence->waitForever("Gralloc1On0Adapter::lockYCbCr");
	int result = mModule->lock_ycbcr(mModule, buffer->getHandle(),
	static_cast<int>(producerUsage \| consumerUsage),
	accessRegion.left, accessRegion.top, accessRegion.width,
	accessRegion.height, outData);
	ALOGV("gralloc0 lockYCbCr returned %d", result);
	if (result != 0) {
	return GRALLOC1_ERROR_UNSUPPORTED;
	}
	} else {
	return GRALLOC1_ERROR_UNSUPPORTED;
	}

	return GRALLOC1_ERROR_NONE;
	}

	gralloc1_error_t Gralloc1On0Adapter::unlock(
	const std::shared_ptr<Buffer>& buffer,
	sp<Fence>* outReleaseFence)
	{
	if (mMinorVersion >= 3) {
	int fenceFd = -1;
	int result = mModule->unlockAsync(mModule, buffer->getHandle(),
	&fenceFd);
	if (result != 0) {
	close(fenceFd);
	ALOGE("gralloc0 unlockAsync failed: %d", result);
	} else {
	*outReleaseFence = new Fence(fenceFd);
	}
	} else {
	int result = mModule->unlock(mModule, buffer->getHandle());
	if (result != 0) {
	ALOGE("gralloc0 unlock failed: %d", result);
	}
	}
	return GRALLOC1_ERROR_NONE;
	}

	std::shared_ptr<Gralloc1On0Adapter::Descriptor>
	Gralloc1On0Adapter::getDescriptor(gralloc1_buffer_descriptor_t descriptorId)
	{
	std::lock_guard<std::mutex> lock(mDescriptorMutex);
	if (mDescriptors.count(descriptorId) == 0) {
	return nullptr;
	}

	return mDescriptors[descriptorId];
	}

	std::shared_ptr<Gralloc1On0Adapter::Buffer> Gralloc1On0Adapter::getBuffer(
	buffer_handle_t bufferHandle)
	{
	std::lock_guard<std::mutex> lock(mBufferMutex);
	if (mBuffers.count(bufferHandle) == 0) {
	return nullptr;
	}

	return mBuffers[bufferHandle];
	}

	std::atomic<gralloc1_buffer_descriptor_t>
	Gralloc1On0Adapter::sNextBufferDescriptorId(1);

	} // namespace android